Duke’s MS in Materials Science and Engineering propels scientists into atom-by-atom design of sustainable and smart matter. Students grow perovskite solar films, 3-D print bio-resorbable metals, and compute quantum transport in 2-D heterostructures. Cleanroom and super-resolution microscopy facilities enable discoveries that translate into batteries, implants, and photonic chips.
Solid-state electrolyte suppressing dendrite growth in Li-metal batteries
MXene-based supercapacitors for grid-scale storage
3-D printed magnesium alloy implant biodegradation study
Quantum-dot photodetectors tuned for night-vision wavelengths
Machine-learning discovery of low-carbon cement formulations
Bio-inspired structural coloration films for energy-efficient displays
Hydrogel scaffold with piezoelectric nanoparticles for nerve repair
Photonic crystal cavity for on-chip quantum emitters
LCA of recycled rare-earth magnets in wind turbines
Blockchain supply-chain tracking of ethically sourced cobalt
Hybrid perovskite solar cell stability via polymer encapsulation
Ultra-hard diamond-like coatings for medical scalpels
Data-viz of grain-boundary energy landscapes using atomistic sims
VR teaching module on crystallographic defects
Open-source database of mechanical properties of biopolymers
Nano-paper composite packaging replacing single-use plastics
Citizen-science app mapping corrosion on coastal infrastructure
Engineer intelligent materials that power a sustainable future with Duke.
Whether it's Machine Learning, Data Science, or Web Development, Collexa is here to support your academic journey.
"Collexa transformed my academic experience with their expert support and guidance."
Computer Science Student
Reach out to us for personalized academic assistance and take the next step towards success.
